The Weigh Bar®: Designed for Durability - Avery Weigh

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The Weigh Bar®: Designed for Durability - Avery Weigh
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Avery Weigh-Tronix Weigh Bar
The Weigh Bar®:
Designed for Durability
Time-tested strength pairs with cutting-edge design
in the Avery Weigh-Tronix Weigh Bar—leading the
industry in accurate, repeatable weighing technology
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The Weigh Bar®: Designed for Durability
History
The scale was one of the first tools of civilization; ancient Egyptian tomb art from as early as 2500
BC depicts the use of balance scales, which continued to be used until the industrial age. The first
incarnation of the modern strain gauge scale was introduced in 1938. This scale determined the
weight of the applied load based upon the amount of force—or strain—that was placed on the
gauge, which was attached to the most stressed section of the scale platform. In the past half-century, this technology joined the computer age, yielding higher-accuracy readings within a more
convenient-to-use design. The electronic transducer, also known as a load cell, operates utilizing
four or more strain gauges wired together, which establishes a “Wheatstone bridge” electrical
circuit. The load cell became a popular selection for commercial weighing applications in the mid20th century, but this new weighing method was not without its own shortcomings.
Electronic scales use load cells to convert mechanical movement, or applied force, into an electrical signal. The load cell deforms while bearing a load, and the compression or tension force that
has been applied yields a corresponding electrical signal that is read by the weight indication
system. While different designs are available, load cells based on the cantilever principle are most
common; one end of the load cell is fixed and the other suspended to absorb the force of the applied load. The suspended end then reverts to its initial position once the load is removed.
As this mechanical movement must be precise in order to deliver highest accuracy readings, the
early load cells were particularly susceptible to environmental forces that could influence this
movement—such as shock and vibration. This made the load cell more challenging to apply in
outdoor conditions, as well as in busy industrial environments. Additional mechanical devices
such as expensive check rods and check plates were often required within these scale arrangements to help protect the load cell from damage. They also helped prevent extraneous loading
from affecting the load cell’s operation. However, as with all mechanical scale parts, these devices
are subject to wear, weather and other deteriorating factors that reduce their overall operational
life. Continual—and often costly—maintenance programs were required to ensure proper scale
operation, making the technology more expensive to apply.
The First Weigh Bar
A better method was developed as a result of an innovative weighing solution designed for
livestock farms in the 1960s. Art’s-Way Manufacturing, Inc. of Armstrong, Iowa enlisted the help
of New Jersey engineer Dick Bradley to create an on-farm feed mixing solution that included an
integrated scale, which would weigh each ingredient individually with far higher accuracy than
the previous volume-based method. This scale would also need to withstand a broad range of environmental effects—including shock and vibration—and weather conditions, as Art’s-Way would
market this system to farmers throughout the US. Existing systems employing mechanical components could wear easily in outdoor conditions, and undesirable loading effects influenced the load
cell’s readings. Side loading, end loading and torsion effects would all impact the measurement of
the applied load, reducing the accuracy and repeatability of the scale system.
Bradley’s solution was the Weigh Bar, an all-electronic
strain gauge weight sensor designed to measure the
applied load accurately without experiencing problematic loading effects. The Weigh Bar reliably delivered
precise, repeatable readings, while its weatherproof
and shockproof design allowed it to withstand environmental challenges. Its electronic design meant
the Weigh Bar needed only minimal maintenance
and provided a long usable life, allowing users to save
significant expense both in the initial investment and
in overall upkeep.
Unlike other load cells of this period, the Weigh Bar
used an electronic signal to convey force measurements, rather than mechanical components. With
this design, the Weigh Bar demonstrated exceptional
accuracy, with no external mechanical apparatus re-
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The Avery Weigh-Tronix
Weigh Bar weight sensor
improved upon the initial
electronic load cell design
to make weighing easy to
apply in harsh industrial
areas. Today, the Weigh Bar
still offers one of the lowest
failure rates in the industry.
The Weigh Bar®: Designed for Durability
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quired for dependable operation. The strain gauges, or electronic sensors, were positioned on the
outside surfaces of the Weigh Bar, with two sensors on the top and two on the bottom—a design
that ensured optimal performance.
The result was a new type of load cell that experienced reduced fatigue, with a low failure rate and
exceptional overload protection. It also did not require complex vacuum-type hermetic seals that
existing load cells used. Combining a simple potted seal with the device’s already-rugged design,
the Weigh Bar provided the most robust and reliable weighing solution the industry had seen—all
at a competitive cost.
Two sensor pairs are
positioned on the outside
surfaces of the Weigh Bar,
with two sensors on the top
and two on the bottom.
As of 1969, Art’s-Way began selling industry’s first grinder/mixer with an incorporated Weigh Barbased scale system. In 1971, Weigh-Tronix (now Avery Weigh-Tronix) incorporated as a subsidiary
of Art’s-Way and sold the scale system itself to farm equipment manufacturers. Two years later,
the company’s deck scale featuring Weigh Bar weight sensors became industry’s first all-electronic
scale to earn legal-for-trade approval from the National Bureau of Standards (now the National Institute of Standards and Technology). Plus, the system’s reliability made it the only industrial scale
to carry a two-year warranty; competitive model warranties rarely exceeded 12 months.
How the Weigh Bar Works
Applied load
Sensor Pair
The Weigh Bar is a steel structure with two pairs of
electronic sensors: one pair placed on top and the
other on the bottom. As with most load cells, the
Weigh Bar structure acts as a cantilever, unsupported
on one end and fixed on the other. When a load is
applied on the unsupported end, the sensors detect
strain in the structure and provide an analog mV/V
output. This output is interpreted by indicator electronics, and the weight indicator digitally displays the
strain as the load’s weight.
How the Weigh Bar eliminates undesirable loading
effects is exhibited in its principles of operation, expressed here as equations.
Sensor Pair
When force is applied on the Weigh Bar’s unsupported
end, the weight sensor measures the strain at the
T1 position—which is associated with the bending
moment M1, a measurement that is equal to WX. When the strain at the position closest to the
fixed end, T2, is measured, it results in the second bending moment (M2), which in this equation is
equal to W (A + X), or WX + WA. The Weigh Bar is then designed to electronically subtract the first
bending moment from the second to reach the final equation: M1 - M2 = WA. The distance A is a
fixed, known amount that is factory-set and serves as an amplification factor while allowing users
to determine W, which is the force measurement.
This design ensures the Weigh Bar is
unaffected by moment arm variations
(X in the above equation)—providing
consistent readings even when load
placement differs. It also eliminates
several types of loading errors that
plagued traditional load cells.
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The Weigh Bar®: Designed for Durability
how the weigh Bar works continued
End Loading:
The Weigh Bar experiences a uniform
compressive strain throughout its full
length when an end load is applied.
Because the sensor is wired to subtract
the strain experienced at M1 from the
strain experienced at M2, which are
equal in this instance, the electronic
result is zero. With no additional force
measurement to affect the applied
load, the Weigh Bar ensures high accuracy and repeatability.
Side Loading:
A neutral axis runs the length of the
beam at a 90-degree angle to the
applied force during side loading,
causing no tension or compression at
the top of the Weigh Bar. The sensors,
therefore, do not measure the force
from side loading—preventing this
undesirable loading effect.
Torsion Effect:
As with the end loading example, any
torque applied to the Weigh Bar results in a strain—in this case, a 360-degree torsional shear strain—that is
uniform throughout the length of
the Weigh Bar. Once again, when the
strain experienced at M1 is subtracted
from the strain experienced at M2 the
result is zero, eliminating any torsion
effect that could influence measurement of the applied load.
Unlike a traditional load cell, the
Weigh Bar deflects an appreciable
amount—usually a fraction of an inch—under maximum load. This deflection of the structure absorbs the energy of the impact. This benefit, combined with the aforementioned features inherent
in the Weigh Bar’s design—including its electronics and its ability to ignore unwanted forces— results in a linear weighing device that provides accurate, repeatable measurements.
For additional overload protection, this design allows the incorporation of a simple, adjustable
stop, such as a threaded bolt. The stop prevents the Weigh Bar from deflecting beyond its ability
to recover due to excessive overloading or shock, thus protecting it from damage.
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The Weigh Bar®: Designed for Durability
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Today’s Advancements
In the decades since the Weigh Bar’s invention, Avery Weigh-Tronix has continued to enhance its
design. Today’s Weigh Bar features a multi-layer sealing process that further protects it from harsh
environments. During manufacturing, the Weigh Bar also undergoes a three-step treatment process to further ensure strength, repeatability and low hysteresis. This combination empowers the
Weigh Bar to withstand everyday jolts and moisture penetration—delivering long operational life.
Since the 1980s, the Weigh Bar’s construction has been strengthened through the use of aircraftquality alloy steel, made up of a fine grain structure that further improves performance. Other
Weigh Bar components such as the strain gauges and adhesive have undergone continuous
improvement throughout the decades since its inception. With these enhancements, today’s Weigh
Bar provides exceptional impact loading absorption and withstands in excess of one million cycles.
Several Weigh Bar models are available, including those designed with stainless steel construction
featuring fully welded NEMA 4X (IP68) cans for sanitary applications, such as in food and beverage
manufacturing. Models are also available specifically for use in hazardous areas. The same rugged
Weigh Bar design can be implemented in weight sensors that vary in capacity from 100 to 250,000
pounds. The wide array of Weigh Bar configurations promotes its use in agricultural, petrochemical, pharmaceutical, food processing, material handling and transportation industry applications.
Inherent Protection – Unique,
rugged design eliminates the need
for external mechanical protection
Sensors – Sensors positioned in
robust area for high reliability
and overload protection
Potting Material – Protective IP67
potting compound ensures the Weigh
Bar withstands severe environments
Sealed – Multi-layer sealing
process further protects
against harsh conditions
Wiring – All wiring routed inside
the Weigh Bar’s internal structure
Steel Construction – Made of aircraftquality alloy steel or stainless
steel for sanitary applications
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The Weigh Bar®: Designed for Durability
In the Field
The Weigh Bar has been successfully implemented in applications ranging from floor scales and
batching operations to forklift and truck scales in the field. These recent examples demonstrate
how the Weigh Bar has proven its durability and high accuracy.
M-I SWACO
M-I SWACO distributes two important materials for the drilling industry: Barite, a cement-like casting material that keeps soft, sandy earth from caving in during the drilling process; and a gel material, mixed to customer specifications, which allows a bit to drill
more efficiently. To weigh tanks filled with Barite, M-I SWACO
needed a scale system that could handle regular loads of up to
a million pounds. For their gel product, M-I SWACO faced the
additional challenge of weighing anywhere from three to five
chemicals used to make up the customer-specified material—
all of which must be weighed and pumped into a single tank.
M-I SWACO weighs tanks
filled with imperative
substances for the drilling
industry using Avery
Weigh-Tronix Weigh Bars
and Model 1310 indicators.
The tanks can weigh up to
a million pounds each.
The solution included 35 separate systems, each
requiring four 250K batching Weigh Bars and the
Model 1310 Indicator—capable of handling tanks
of up to a million pounds and able to track the
weights of individual ingredients used to create each batch. With this scale design, a boat can
simply go in and out of the weighing area without
returning for multiple product batches, saving
M-I SWACO time and money. The system provides
accurate weighments despite challenging weather
conditions, including rain, salt water and humidity.
Lakeville Motor Express
Accurate weighing is particularly important in shipping and distribution applications, allowing
carriers to optimize revenue by precisely determining the weight of delivered freight. Forklift
scales that incorporate Weigh Bar technology deliver the high-accuracy measurements required
while allowing forklift drivers to obtain weigh data en route.
LTL carrier Lakeville Motor Express maximizes profits and
protects shippers by using Avery Weigh-Tronix forklift scales to
weigh and bill freight, which the company picks up from myriad facilities and transfers to customers. The forklift scales are
used to verify that the customer pays for exactly the amount
of freight transported instead of estimating the weight of each
load. After keeping running totals of the differences in actual
costs versus estimations over the course of a year, Lakeville
Motor Express determined that Avery Weigh-Tronix’s weighing
system saved the company in excess of a million dollars.
Lakeville Motor Express now employs Avery Weigh-Tronix’s
FLSC forklift scale system, which allows users to lift, then move
and weigh loads at once to expedite operations. The forklift scale carriage contains two metal plates combined with
Weigh Bar electronic weight sensors. This arrangement has
no flexures, hydraulics or springs, allowing it to deliver highly
accurate, legal-for-trade weighments of up to 5,000 pounds
even while the forklift mast is tilted. Its rugged design ensures
responsive, repeatable performance while withstanding the
jolts and heavy, frequent loads common in fast-paced warehouse environments.
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Lakeville Motor Express
weighs and bills freight
using the FLSC forklift scale.
Its scale carriage contains
two metal plates paired with
Weigh Bar weight sensors.
The Weigh Bar®: Designed for Durability
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Utah Department of Transportation
The replacement port of
entry truck scales, operated
by the Utah Department
of Transportation Motor
Carriers Division, are
designed for simple
maintenance—with
Weigh Bars and additional
components easily accessed.
Another important advantage of the Weigh Bar is demonstrated in truck scale applications, where
scales are used not only to determine the weight of loads, but also to confirm vehicles meet stringent state and federal weight regulations. Accurate measurements are critical in these applications to prevent excessive wear on vehicles, as well as roads.
The port is located directly off a wetland area, causing the water table to be very high. In this environment, a scale must not only withstand challenging conditions but also be easy to maintain. As
Avery Weigh-Tronix offers a galvanizing option and corrosion-resistant steel construction on their
truck scales, their weighing equipment proved well suited for this application’s harsh conditions.
The scale is self-checking, which also proved advantageous, as
UDOT MC needed no extraneous equipment to ensure the scale
was centered correctly in this difficult environment.
When the port of entry weigh station underwent a renovation,
Avery Weigh-Tronix replaced the existing single axle scales with
two sets of six multi-deck scales—one northbound and one
southbound, each scale 120 feet in length. In order to weigh
vehicles more efficiently, each of the decks were configured to
accommodate the most common truck axle configurations and
arranged in a row, ensuring an entire semi-truck can be weighed
in one step. The decks that comprise the scales are placed in a
certain order according to size and length. Operators can then
select to stop a truck in one of several places on the scale—and
most trucks only need to stop once. This arrangement makes the
weighing process run smoothly for the port supervisor and crew.
In the Curbside Weighing
System, the Weigh Bar
is inserted between the
hauler’s truck and its tipper,
allowing recyclables to be
weighed dynamically.
An additional advantage to the scale’s design is the simple access
it provides for maintenance. Since the Weigh Bars and additional
components can be accessed from above the scale, nearly all maintenance necessary can take
place without requiring personnel to work beneath the scale—a great benefit when working in
an area with a high water table. It is yet one more example of how the Weigh Bar has led to scale
systems that provide exceptional accuracy and longevity for challenging transportation applications—and for industry as a whole.
RecycleBank, LLC
RecycleBank, LLC, headquartered in New York, encourages
community recycling by allowing contributors to accumulate
RecycleBank Reward Points according to the amount of materials
they recycle. These Points are determined by participation as well
as the weight of the contributed materials and can be redeemed
for rewards to national and local RecycleBank Reward Partners.
In order to collect recyclables and track them for each household,
RecycleBank partner haulers must document how often a household’s contributions are made and how much the recyclables
weigh. A wheeled tote containing recyclables and a RFID tag, which
details the recycler’s
information, is placed
next to the curb at
each home and picked
up by the tipper on
the hauler’s truck. The
scale on the tipper
then needs to generate the weight of the
load accurately—
Continued >
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The Weigh Bar®: Designed for Durability
In the field continued
without consuming significant amounts of the hauler’s time. The Avery Weigh-Tronix Curbside Weighing System (CWS) does
just that—weighing materials in-motion and facilitating easy documentation of all recyclables.
An Avery Weigh-Tronix Weigh Bar is inserted between the truck and the tipper, allowing recyclables to be weighed dynamically and eliminating pauses mid-lift to obtain readings. Avery Weigh-Tronix’s rugged Weigh Bar delivers dependable
operation and exceptional accuracy, with inherent strength and sophisticated overload protection. Plus, the CWS works
in conjunction with a RFID system, which allows simple tracking of recyclables by associating the amount of materials
recycled with the contributing household.
Peninsula Terminal Company
When the rugged construction of an Avery Weigh-Tronix truck scale is paired with the time-tested durability of the Weigh
Bar, the result is a long lasting and dependable weighing solution to handle even the heaviest of vehicle loads.
At its liquid products transfer site in Portland, Oregon, Peninsula Terminal Company’s Transload Services Division receives
tanker railcars transporting chemicals for the paper and fuel industries. The company’s customers rely upon Peninsula
Terminal to help them transfer chemical loads from railcars to the customers’ tanker trucks and track the amount of
chemicals offloaded. To provide increased accuracy and easy documentation of all weighments, Peninsula Terminal
sought a robust truck scale offering multi-faceted operation.
The company selected an Avery WeighTronix aboveground 80 x 11 ft. truck scale,
paired with an AVS-5 unattended scale
counsel featuring a Model 1310 indicator. The combination provided Peninsula
Terminal with a simple yet robust weighing
and documentation solution for its customers. The scale features high capacity, rugged
construction and guardrails for additional
safety in the transfer site’s harsh climate.
The scale system features Weigh Bar technology for long-lasting, extremely accurate
weighing. It is yet one more example of
how the Weigh Bar has led to scale systems
that provide exceptional accuracy and
longevity for challenging chemical handling
applications—and for industry as a whole.
At Peninsula Terminal’s transfer site, a scale system featuring high
capacity, rugged construction and guardrails for additional safety
provides high-accuracy weighing in a challenging climate.
Avery Weigh-Tronix - USA
1000 Armstrong Drive,
Fairmont, MN 56031-1439 USA
usinfo@awtxglobal.com
Toll-Free: (800) 533-0456
Phone: (507) 238-4461
Avery Weigh-Tronix - UK
Foundry Lane, Smethwick,
West Midlands B66 2LP UK
info@awtxglobal.com
Phone: +44 (0) 8453 66 77 88
Fax: +44 (0) 121 224 8183
Please call us or visit www.averyweigh-tronix.com
for your nearest Avery Weigh-Tronix distributor
© Avery Weigh-Tronix group of companies 2010. All rights reserved. Avery Weigh-Tronix is a registered trade mark of the Avery Weigh-Tronix group of companies. This publication is issued to provide outline information
only which, unless agreed by an Avery Weigh-Tronix group company in writing, may not be regarded as a representation relating to the products or services concerned.
This publication was correct at the time of going to print however, Avery Weigh-Tronix reserves the right to alter without notice the specification, design, price or conditions of supply of any product or service at any time.
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